Thank you Tanguy for the "fresh pair of eyes" perspective. Thank you Tom for the link suggestions. Supersedes https://github.com/dagger/dagger/pull/1847 Signed-off-by: Gerhard Lazu <gerhard@lazu.co.uk>
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slug | displayed_sidebar |
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/1202/plan | europa |
It all starts with a plan
Plan structure
A config declared in Dagger starts with a plan, specifically dagger.#Plan
Within this plan we can:
- interact with the
client
filesystem- read files, usually the current directory as
.
- write files, usually the build output as
_build
- read files, usually the current directory as
- read
env
variables, such asNETLIFY_TEAM
in our example - declare a few
actions
, e.g.deps
,test
&build
This is our Getting Started todoapp plan structure:
When the above plan gets executed via dagger do build
, it produces the following output:
[✔] client.filesystem.".".read 0.0s
[✔] actions.deps 1.1s
[✔] actions.test.script 0.0s
[✔] actions.test 0.0s
[✔] actions.build.run.script 0.0s
[✔] actions.build.run 0.0s
[✔] actions.build.contents 0.0s
[✔] client.filesystem."./_build".write 0.1s
Since these actions have run before, they are cached and take less than 2 seconds to complete.
While the names used for the actions above - deps
, test
& build
- are short and descriptive,
any other names would have worked. Put differently, action naming does not affect plan execution.
Lastly, notice that even if the deploy
action is defined, we did not run it.
Similar to Makefile targets, we have the option of running specific actions.
We ran the dagger do build
command, which only runs the build
action (and all its dependent actions).
This Dagger property enables us to keep the entire CI/CD config in a single file, while keeping the integration execution separate from the deployment one.
Separating CI & CD concerns becomes essential as our pipelines grow in complexity, and we learn about operational and security constraints specific to our systems.
Packages & imports
In order to understand the correlation between actions, definitions and packages, let us focus on the following fragment from our Getting Started todoapp config:
package todoapp
import (
"dagger.io/dagger"
"universe.dagger.io/netlify"
)
dagger.#Plan & {
// ...
actions: {
// ...
deploy: netlify.#Deploy & {
// ...
}
// ...
}
}
We start by declaring the package name, package todoapp
above.
Next, we import the packages that we use in our plan.
The first import is needed for the dagger.#Plan
definition to be available.
The second import is for netlify.#Deploy
to work.
:::info Which other imports we are missing? Look at all the actions in the plan structure at the top of this page. Now check all the available packages in universe.dagger.io. :::
We now understand that the deploy
action is the deploy definition from the netlify package, written as deploy: netlify.#Deploy
Each definition has default values that can be modified via curly brackets. This is what that looks like in practice for our deploy action:
// ...
deploy: netlify.#Deploy & {
contents: build.contents.output
site: client.env.APP_NAME
token: client.env.NETLIFY_TOKEN
team: client.env.NETLIFY_TEAM
}
// ...
We can build complex pipelines efficiently by referencing any definition, from any package in our actions. This is one of the fundamental concepts that makes Dagger a powerful language for building CI/CD pipelines.
If you want to learn more packages in the context of CUE, the config language used by Dagger configs, check out the Packages section on the What is CUE? page.
:::tip Now that we understand the basics of a Dagger plan, we are ready to learn more about how to interact with the client environment. We can read the env (including secrets), run commands, use local sockets, etc. :::